利用深度神经网络预测美国毗连地区的大型野火

IF 1.4 4区地球科学 Q4 ENVIRONMENTAL SCIENCES

Journal of Applied Remote Sensing Pub Date : 2024-04-01 DOI:10.1117/1.jrs.18.028501

Sambandh Dhal, Shubham Jain, Krishna Chaitanya Gadepally, Prathik Vijaykumar, Ulisses Braga-Neto, Bhavesh Hariom Sharma, Bharat Sharma Acharya, Kevin Nowka, Stavros Kalafatis

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引用次数: 0

摘要

在过去的几十年里，美国各地的大型野火越来越常见，对森林健康和功能、人类福祉和经济造成了极大的影响。在此，我们利用深度神经网络模型中的一系列气象、土地覆盖和地形特征，研究了过去十年（2011 年至 2020 年）美国毗连地区大规模野火的严重程度。分析共使用了 4538 起野火事件，覆盖 87,305 平方英里的烧毁面积。我们在加利福尼亚州、德克萨斯州和爱达荷州观测到了最多的大型野火，其中 43% 的野火是由闪电引起的。重要的是，结果表明，野火发生的严重程度与研究区域的天气、土地覆盖和海拔高度相关，这一点可以从它们的 SHapley Additive exPlanations 值看出。总之，数据驱动模型的不同变体及其结果可为在不断变化的气候和干扰机制下管理地貌以应对大规模野火提供有用的指导。

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Predicting large wildfires in the Contiguous United States using deep neural networks

Over the last several decades, large wildfires have become increasingly common across the United States causing a disproportionate impact on forest health and function, human well-being, and the economy. Here, we examine the severity of large wildfires across the Contiguous United States over the past decade (2011 to 2020) using a wide array of meteorological, land cover, and topographical features in a deep neural network model. A total of 4538 wildfire incidents were used in the analysis covering 87,305 square miles of burned area. We observed the highest number of large wildfires in California, Texas, and Idaho, with lightning causing 43% of these incidents. Importantly, results indicate that the severity of wildfire occurrences is highly correlated with the weather, land cover, and elevation of the study area as indicated from their SHapley Additive exPlanations values. Overall, different variants of data-driven models and their results could provide useful guidance in managing landscapes for large wildfires under changing climate and disturbance regimes.

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来源期刊

Journal of Applied Remote Sensing 环境科学-成像科学与照相技术

CiteScore

3.40

自引率

11.80%

发文量

194

审稿时长

3 months

期刊介绍： The Journal of Applied Remote Sensing is a peer-reviewed journal that optimizes the communication of concepts, information, and progress among the remote sensing community.